/*--------------------------------*- C++ -*----------------------------------*\
| =========                 |                                                 |
| \\      /  F ield         | OpenFOAM: The Open Source CFD Toolbox           |
|  \\    /   O peration     | Version:  2.4.x                                 |
|   \\  /    A nd           | Web:      www.OpenFOAM.org                      |
|    \\/     M anipulation  |                                                 |
\*---------------------------------------------------------------------------*/

// Domain size in diameter and number of cells.
xMin                -10.0;                        // Minimum x-extent of domain (D).
yMin                -10.0;                        // Minimum y-extent of domain (D).
zMin                -10.0;                        // Minimum z-extent of domain (D).
xMax                 10.0;                        // Maximum x-extent of domain (D).
yMax                 10.0;                        // Maximum y-extent of domain (D).
zMax                 10.0;                        // Maximum z-extent of domain (D).
nx                   80;                          // Number of cells in x-direction.
ny                   80;                          // Number of cells in y-direction.
nz                   80;                          // Number of cells in z-direction.


// Turbine size.
D                    126.0;




// Number of cores and domain decomposition information.
nCores               96;                          // Number of cores on which to run this case.
decompType           scotch;                      // Decomposition algorithm.  "simple" and "scotch" are good choices.
decompOrder          (6 6 5);                     // Order of the decomposition number of partitions in (x y z)-directions.




// Initial values for the variables.
// Note that U and T get overwritten if setFieldsABL is called.
U0Mag                8.0;                         // Initial condition for wind speed (m/s).
windHeight           90.0;                        // Height at which to drive mean wind to U0Mag/dir (m).
p0                   0.0;                         // Initial pressure (minus the hydrostatic variation and normalized by density) (m^2/s^2).
nuSgs0               0.0;                         // Initial SGS viscosity (m^2/s).
k0                   0.1;                         // Initial SGS turbulent kinetic energy (m^2/s^2).




// General conditions and parameters.
nu                   1.0E-5;                      // Molecular viscosity (m^2/s).




// SGS model inputs.
LESModel             oneEqEddy;                   // SGS model selection.
ce                   0.93;                        // SGS model constant.
ck                   0.0673;                      // SGS model constant.


#inputMode           merge

// ************************************************************************* //

